Bridgman thermodynamic formulas: Difference between revisions

Revision as of 11:33, 6 October 2011

Notation used (from Table I):

Bridgman thermodynamic formulas ^[1]

\left.\partial T\right\vert _{p}=-\left.\partial p\right\vert _{T}=1

\left.\partial V\right\vert _{p}=-\left.\partial p\right\vert _{V}=\left.{\frac {\partial V}{\partial T}}\right\vert _{p}

\left.\partial S\right\vert _{p}=-\left.\partial p\right\vert _{S}=C_{p}/T

\left.\partial Q\right\vert _{p}=-\left.\partial p\right\vert _{Q}=C_{p}

\left.\partial W\right\vert _{p}=-\left.\partial p\right\vert _{W}=p\left.{\frac {\partial V}{\partial T}}\right\vert _{p}

\left.\partial U\right\vert _{p}=-\left.\partial p\right\vert _{U}=C_{p}-p\left.{\frac {\partial V}{\partial T}}\right\vert _{p}

\left.\partial H\right\vert _{p}=-\left.\partial p\right\vert _{H}=C_{p}

\left.\partial G\right\vert _{p}=-\left.\partial p\right\vert _{G}=-S

\left.\partial A\right\vert _{p}=-\left.\partial p\right\vert _{A}=-\left(S+p\left.{\frac {\partial V}{\partial T}}\right\vert _{p}\right)

\left.\partial V\right\vert _{T}=-\left.\partial T\right\vert _{V}=-\left.{\frac {\partial V}{\partial p}}\right\vert _{T}

\left.\partial S\right\vert _{T}=-\left.\partial T\right\vert _{S}=\left.{\frac {\partial V}{\partial T}}\right\vert _{p}

\left.\partial Q\right\vert _{T}=-\left.\partial T\right\vert _{Q}=T\left.{\frac {\partial V}{\partial T}}\right\vert _{p}

\left.\partial W\right\vert _{T}=-\left.\partial T\right\vert _{W}=-p\left.{\frac {\partial V}{\partial p}}\right\vert _{T}

\left.\partial U\right\vert _{T}=-\left.\partial T\right\vert _{U}=T\left.{\frac {\partial V}{\partial T}}\right\vert _{p}+p\left.{\frac {\partial V}{\partial p}}\right\vert _{T}

\left.\partial H\right\vert _{T}=-\left.\partial T\right\vert _{H}=-V+T\left.{\frac {\partial V}{\partial T}}\right\vert _{p}

\left.\partial G\right\vert _{T}=-\left.\partial T\right\vert _{G}=-V

\left.\partial A\right\vert _{T}=-\left.\partial T\right\vert _{A}=p\left.{\frac {\partial V}{\partial p}}\right\vert _{T}

@@ Line 41: / Line 41: @@
 :<math> \left. \partial Q \right\vert_T  =  - \left. \partial T \right\vert_Q =  T\left. \frac{\partial V}{\partial T} \right\vert_p</math>
-:<math> \left. \partial W \right\vert_T  =  - \left. \partial T \right\vert_W = - p\left. \frac{\partial V}{\partial p} \right\vert_p</math>
+:<math> \left. \partial W \right\vert_T  =  - \left. \partial T \right\vert_W = - p\left. \frac{\partial V}{\partial p} \right\vert_T</math>
+:<math> \left. \partial U \right\vert_T  =  - \left. \partial T \right\vert_U = T\left. \frac{\partial V}{\partial T} \right\vert_p + p\left. \frac{\partial V}{\partial p} \right\vert_T</math>
+:<math> \left. \partial H \right\vert_T  =  - \left. \partial T \right\vert_H = -V + T\left. \frac{\partial V}{\partial T} \right\vert_p  </math>
+:<math> \left. \partial G \right\vert_T  =  - \left. \partial T \right\vert_G = -V </math>
+:<math> \left. \partial A \right\vert_T  =  - \left. \partial T \right\vert_A =  p\left. \frac{\partial V}{\partial p} \right\vert_T</math>
+====volume====
 ==See also==